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  • Identification of a novel set of genes reflecting different in vivo invasive patterns of human GBM cells.

Identification of a novel set of genes reflecting different in vivo invasive patterns of human GBM cells.

BMC cancer (2012-08-21)
Massimiliano Monticone, Antonio Daga, Simona Candiani, Francesco Romeo, Valentina Mirisola, Silvia Viaggi, Ilaria Melloni, Simona Pedemonte, Gianluigi Zona, Walter Giaretti, Ulrich Pfeffer, Patrizio Castagnola
ABSTRACT

Most patients affected by Glioblastoma multiforme (GBM, grade IV glioma) experience a recurrence of the disease because of the spreading of tumor cells beyond surgical boundaries. Unveiling mechanisms causing this process is a logic goal to impair the killing capacity of GBM cells by molecular targeting.We noticed that our long-term GBM cultures, established from different patients, may display two categories/types of growth behavior in an orthotopic xenograft model: expansion of the tumor mass and formation of tumor branches/nodules (nodular like, NL-type) or highly diffuse single tumor cell infiltration (HD-type). We determined by DNA microarrays the gene expression profiles of three NL-type and three HD-type long-term GBM cultures. Subsequently, individual genes with different expression levels between the two groups were identified using Significance Analysis of Microarrays (SAM). Real time RT-PCR, immunofluorescence and immunoblot analyses, were performed for a selected subgroup of regulated gene products to confirm the results obtained by the expression analysis. Here, we report the identification of a set of 34 differentially expressed genes in the two types of GBM cultures. Twenty-three of these genes encode for proteins localized to the plasma membrane and 9 of these for proteins are involved in the process of cell adhesion. This study suggests the participation in the diffuse infiltrative/invasive process of GBM cells within the CNS of a novel set of genes coding for membrane-associated proteins, which should be thus susceptible to an inhibition strategy by specific targeting.Massimiliano Monticone and Antonio Daga contributed equally to this work.

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Anti-Nestin Antibody, clone rat-401, clone rat-401, Chemicon®, from mouse